JP4749965B2 - Vacuum cleaner - Google Patents

Description

  The present invention relates to a vacuum cleaner that collects dust by operation of an electric blower, and more particularly, to a dust container that stores collected dust.

2. Description of the Related Art Conventionally, a vacuum cleaner that collects dust by operating an electric blower includes a dust cup (dust storage unit) that stores the collected dust. When the dust cup is saturated with dust, it is necessary to throw away the dust. Therefore, in the vacuum cleaner, the amount of dust in the dust cup is detected by an optical sensor or the like and reaches a predetermined saturation amount. This is notified to the user (see, for example, Patent Document 1). Moreover, in patent document 1, since the dust cup is shape | molded with the transparent material, the user can visually observe the amount of dust inside.
On the other hand, Patent Document 2 proposes to improve the antibacterial effect and deodorizing effect in the dust cup by irradiating the dust cup with visible light or ultraviolet light and photocatalytic action. At this time, if a dust cup formed of a transparent material is irradiated with visible light, the inside of the dust cup can be easily seen.
JP 2002-143060 A JP 2003-260013 A

However, it is not desirable to illuminate the dust cup more than necessary, considering the desire not to see the dust contained in the dust cup more clearly than necessary and the desire to reduce power consumption as much as possible. .
Accordingly, the present invention has been made in view of the above circumstances, and an object of the present invention is to provide an electric vacuum cleaner capable of appropriately changing the illumination mode of the dust container for storing dust. .

To accomplish the above object, the interior openably dust accommodating section for accommodating the dust sucked from the suction port by driving the electric blower, a light emitting diode for illuminating the dust receiving portion, the light emitting A light receiving unit that receives light emitted from a diode and passed through the dust container, and an amount of dust in the dust container according to whether or not the light emitted from the light emitting diode is received by the light receiving unit. A dust amount detecting means for detecting, and configured as a vacuum cleaner that controls the illumination mode by the light emitting diode based on the detection result by the dust amount detecting means . Here, the illumination mode includes, for example, the presence / absence of illumination, illumination light quantity, illumination color tone, and illumination method .
For example, when the amount of dust is equal to or greater than the predetermined saturation amount, it is possible to effectively notify the user of this by blinking the light emitting diode.
Thereby , the inside of the dust container can be easily seen by illuminating the light emitting diode only when necessary or increasing the amount of illumination light. Moreover, it is also possible to notify the user of, for example, an abnormal state by changing the illumination mode.

And in time, regardless of the state of the vacuum cleaner when not required the illumination by the light emitting diode structure capable of disabling the illumination by the light emitting diode is desirable. Therefore, it is conceivable to provide illumination enable / disable switching means such as a changeover switch for switching illumination enable / disable by the light emitting diode .

According to the present invention, by appropriately controlling the manner of illumination by the light emitting diodes on the basis of the detection result of the dust amount detecting means, such as by increasing the amount of illumination light or only to illuminate the LED when needed Thus, the inside of the dust container can be easily seen. Moreover, it is also possible to notify the user of, for example, an abnormal state by changing the illumination mode.
Specifically, it is considered such that the amount of pre-Symbol dust contained in the dust containing section controls the mode of illumination by the light emitting diodes based on whether more than a predetermined saturation amount.
The light emitting diode has a long life and can avoid an increase in maintenance cost.

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings so that the present invention can be understood. The following embodiment is an example embodying the present invention, and does not limit the technical scope of the present invention.
1 is an external view of the vacuum cleaner X according to the embodiment of the present invention, FIG. 2 is a cross-sectional view showing an internal configuration of the vacuum cleaner body 1 of the vacuum cleaner X, and FIG. 3 is the vacuum cleaner. FIG. 4 is a flowchart for explaining an example of the procedure of the illumination control process executed in the vacuum cleaner X.
First, the external structure of the vacuum cleaner X according to the embodiment of the present invention will be described with reference to FIG. The vacuum cleaner X is, for example, a cyclone type vacuum cleaner.
As shown in the external view of FIG. 1, the electric vacuum cleaner X includes a cleaner main body 1, a suction port portion 2, a connecting pipe 3, a grip portion 4, and the like. The cleaner body 1 and the suction port 2 are connected by the connecting pipe 3, and the air containing dust sucked from the suction port 2 flows into the cleaner body 1.
The suction port 2 has a suction port for sucking dust, a brush rotated by a motor, and the like. The connecting pipe 3 is constituted by a bendable hose, a rod-like extension pipe or the like. The grip portion 4 is provided with an operation switch 41, a display portion 42, a buzzer portion 43 and the like which will be described later.

Next, the internal configuration of the cleaner body 1 will be described with reference to FIGS. 1 and 2.
As shown in FIGS. 1 and 2, the vacuum cleaner body 1 is sucked from the suction port 2 and the control unit 10 having control devices such as a CPU, a RAM, and a ROM that control the entire vacuum cleaner X. A filter 11a for removing dust from the air, a dust cup 11 (an example of a dust container) formed by a transparent member for storing the dust removed by the filter 11a, and an electric blower for sucking air from the suction port 2 12, an infrared light emitting unit 13 for irradiating infrared rays toward the inside of the dust cup 11, an infrared light receiving unit 14 for receiving infrared rays irradiated from the infrared light emitting unit 13 and passing through the dust cup 11, and the dust cup 11 A light emitting diode 15 (LED, an example of illumination means) for illuminating the inside is included. The white arrows shown in FIG. 2 indicate the flow path of the air sucked from the suction port 2, and the black arrows indicate the direction of infrared rays emitted from the infrared light emitting unit 13.
Since the dust cup 11 is formed of a transparent member, the user can see through the dust contained in the dust cup 11 from the outside. In addition, the dust cup 11 may be configured such that only a part thereof is formed of a transparent member and the inside thereof can be seen through.
The light emitting diode 15 is controlled in its light emission mode by executing a lighting control process (described later with reference to the flowchart of FIG. 4) by the control unit 10. This will be described in detail later. The light emitting diode 15 is an example of an illuminating means for illuminating the dust cup 11 and has a long life, so that the maintenance cost of the electric vacuum cleaner X can be reduced. An incandescent bulb or the like that can illuminate the dust cup 11 more brightly may be used.

Next, the system configuration of the electric vacuum cleaner X will be described with reference to FIG.
As shown in FIG. 3, the vacuum cleaner X is connected to the vacuum cleaner X in addition to the control unit 10, the electric blower 12, the infrared light emitting unit 13, the infrared light receiving unit 14, and the light emitting diode 15. A power source unit 20 that supplies power from a commercial AC power source or the like, and an operation switch 41, a display unit 42, and a buzzer unit 43 provided in the grip unit 4 are provided.
The operation switch 41 is used by the user to perform various operations related to the operation of the electric vacuum cleaner X, and the operation content of the operation switch 41 is transmitted to the control unit 10. For example, in response to an operation start operation on the operation switch 41, the control unit 10 starts operation of the electric vacuum cleaner X.
In addition, the display unit 42 displays the operation status (suction strength, floor type, etc.) of the electric vacuum cleaner X and the occurrence status of an abnormality in accordance with an instruction from the control unit 10. On the other hand, when an abnormality occurs in the electric vacuum cleaner X, the buzzer unit 43 notifies the user of the fact by voice according to an instruction from the control unit 10.

The vacuum cleaner X has a dust amount detection function for detecting the amount of dust accommodated in the dust cup 11, and the dust amount detection function includes the control unit 10, the infrared light emitting unit 13, and the like. The infrared light receiving unit 14 is implemented.
The control unit 10 detects the amount of dust in the dust cup 11 according to whether the light emitted from the infrared light emitting unit 13 is received by the infrared light receiving unit 14. Specifically, when the light emitted from the infrared light emitting unit 13 is received by the infrared light receiving unit 14, dust accumulates up to the position (height) where the diode 13 and the infrared light receiving unit 14 are disposed. It can be determined that it is not. On the other hand, when the light emitted from the infrared light emitting unit 13 is not received by the infrared light receiving unit 14, dust is accumulated up to the position (height) where the diode 13 and the infrared light receiving unit 14 are disposed. It can be judged. Here, the control unit 10, the infrared light emitting unit 13, and the infrared light receiving unit 14 when executing such detection processing correspond to dust amount detection means. In addition, it is also possible to detect the amount of dust in the dust cup 11 at a plurality of heights by providing a plurality of infrared light emitting units 13 and infrared light receiving units 14 at different heights.

  The vacuum cleaner X uses the dust amount detection function to determine whether or not the dust in the dust cup 11 is greater than or equal to a predetermined saturation amount. The infrared light receiver 14 is disposed at a height when the amount of dust in the dust cup 11 reaches a predetermined saturation amount. As a result, in the control unit 10, the predetermined saturation amount in the dust cup 11 depends on whether the light is received by the infrared light receiving unit 14 when light is emitted from the infrared light emitting unit 13. It can be determined whether or not the above dust is contained. When the control unit 10 determines that the dust cup 11 contains more dust than the predetermined saturation amount, the display unit 42 and the buzzer unit 43 notify the user of the fact. Is done.

By the way, in the electric vacuum cleaner X according to the embodiment of the present invention, as described above, the control unit 10 executes an illumination control process (see the flowchart of FIG. 4) described later, thereby the electric vacuum cleaner. Based on the state of X, the illumination mode of the dust cup 11 by the light emitting diode 15 is controlled. The said control part 10 when performing this illumination control process (refer the flowchart of FIG. 4) corresponds to an illumination control means here.
Hereinafter, according to the flowchart of FIG. 4, an example of the procedure of the illumination control process executed by the control unit 10 according to a predetermined control program in the electric vacuum cleaner X will be described. In the figure, S1, S2,... Represent processing procedure (step) numbers.
The lighting control process is executed by the control unit 10 when the power source unit 20 of the vacuum cleaner X is connected to a commercial AC power source and power is supplied from the power source unit 20 to the control unit 10. The illumination control process is started from the state where the light emitting diode 15 is turned off.

First, in step S1, the control unit 10 determines whether or not the electric blower 12 is in operation. Specifically, it is determined whether or not the operation of the electric vacuum cleaner X has been started by operating the operation switch 41 of the grip portion 4 by the user.
Here, while it is determined that the electric blower 12 is not in operation (No side of S1), the process proceeds to step S6, and the state where the light emitting diode 15 is turned off is maintained.
On the other hand, when it is determined that the electric blower 12 is in operation (Yes side of S1), the process proceeds to step S2, and the light emission of the light emitting diode 15, that is, the dust cup 11 by the light emitting diode 15 is performed. Lighting is started. After the light emitted from the light emitting diode 15 enters the dust cup 11, the light is reflected by the inner wall of the dust cup 11 and dust to brighten the inside of the dust cup 11. This makes it easier for the user to see the dust in the dust cup 11.
That is, in the vacuum cleaner X, based on whether the electric blower 12 is in operation (an example of the state of the vacuum cleaner), that is, based on whether the vacuum cleaner X is in operation. The presence or absence of illumination by the light emitting diode 15 is controlled. As a result, it is possible to reduce the power consumption due to the light emission of the light emitting diode 15 and to fulfill the desire not to clearly see the dust cup 11 more than necessary.

On the other hand, in the next step S3, the control unit 10 determines whether or not the amount of dust in the dust cup 11 is equal to or greater than the predetermined saturation amount. Specifically, as described above, the infrared light emitting unit 13 and the infrared light receiving unit 14 are controlled to determine whether or not the amount of dust in the dust cup 11 is equal to or greater than the predetermined saturation amount. Is done.
Here, when it is determined that the amount of dust in the dust cup 11 is not equal to or greater than the predetermined saturation amount (No side of S3), the processing is performed while the light emitting state of the light emitting diode 15 is continued. The process returns to step S1.
On the other hand, when it is determined that the amount of dust in the dust cup 11 is greater than or equal to the predetermined saturation amount (Yes side of S3), the process proceeds to step S4.

In step S4, the light emitting diode 15 is controlled by the control unit 10, whereby the light emitting mode of the light emitting diode 15 is switched to blinking. That is, in the vacuum cleaner X, the illumination by the light emitting diode 15 is performed based on whether the amount of dust in the dust cup 11 is equal to or greater than the predetermined saturation amount (an example of the state of the vacuum cleaner). It is controlled whether to light or blink.
As described above, on the condition that the amount of dust in the dust cup 11 is equal to or more than the predetermined saturation amount, the light emitting diode 15 is blinked, so that the user can determine the amount of dust in the dust cup 11. It can be effectively notified that the amount is equal to or greater than the predetermined saturation amount.

The blinking of the light emitting diode 15 started in step S4 is determined in the following step S5 that the electric blower is in operation (Yes side of S5), and in the step S3, the inside of the dust cup 11 is determined. While it is determined that the amount of dust is not less than the predetermined saturation amount (Yes side of S3), the operation is continued.
On the other hand, when it is determined in step S5 that the operation of the electric blower is stopped (No in S5), the process proceeds to step S6, and the light emitting diode 15 is turned off by the control unit 10. Is done.

In the present embodiment, the configuration in which the infrared light emitting unit 13 and the light emitting diode 15 are provided together has been described. However, it is also conceivable that the light emitting diode 15 is also used as the function of the infrared light emitting unit 13.
For example, a light receiving unit that receives light emitted from the light emitting diode 15 is provided in place of the infrared light receiving unit 14, and the control unit 10 receives light emitted from the light emitting diode 15 by the light receiving unit. A configuration is conceivable in which the amount of dust in the dust cup 11 is detected depending on whether light is received.
Further, by providing a plurality of light emitting diodes 15 and controlling the plurality of light emitting diodes 15 or making the light emitting diodes 15 movable, the illumination area and the amount of illumination light in the dust cup 11 can be changed. It is also possible to do.

In the embodiment, the presence or absence of illumination by the light emitting diode 15 is controlled based on whether or not the electric blower 12 is in operation, that is, whether or not the electric vacuum cleaner X is in operation. Based on whether or not the amount of dust in the dust cup 11 of the electric vacuum cleaner X is equal to or greater than the predetermined saturation amount, lighting of the light emitting diode 15 is turned on and off (an example of a lighting method). The control is described as an example.
However, as an aspect of illumination by the light emitting diode 15, it is also conceivable as another embodiment to control the illumination light quantity, illumination color tone, and the like.
Specifically, the light emitting diode 15 is caused to emit light both when the electric vacuum cleaner X is in operation and when it is not in operation. It is conceivable to control the brightness so that it is brighter in the middle case.
It is also conceivable to use three color light emitting diodes of red, green, and blue as the light emitting diode 15 so that the light emission color tone is changed between when the electric vacuum cleaner X is in operation and when it is not in operation.
In this case, when the amount of dust in the dust cup 11 is not equal to or greater than the predetermined saturation amount, the light emitting diode 15 emits white light, and when the amount is equal to or greater than the predetermined saturation amount, It is also possible to alert the user by causing the light emitting diode 15 to emit red light. In addition, in such a configuration in which the light emitting diode 15 can illuminate in a plurality of colors, it is desirable that the illumination color tone of the light emitting diode 15 can be arbitrarily set by the operation of the operation switch 41 by the user. Accordingly, for example, the user can appropriately set the user's favorite color or a color that matches the color of the vacuum cleaner X.
Further, when the control unit 10 detects a current value flowing through the electric blower 12 and detects an overload operation of the electric blower 12 based on the current value, the control unit 10 supplies the dust cup 11 to the dust cup 11. It is also conceivable as another embodiment to change the illumination mode.

In addition, a configuration is possible in which whether the light emitting diode 15 emits light can be switched. Specifically, it is conceivable that the control unit 10 has a function of switching whether or not the light emitting diode 15 can emit light according to a setting operation on the operation switch 41 by a user. It is also conceivable to provide the operation switch 41 with a cutoff switch for forcibly blocking the light emission of the light emitting diode 15. Here, the control unit 10 or the cut-off switch when executing the process of switching whether or not the light emitting diode 15 emits light corresponds to the illumination availability switching means.
In such a configuration, when the user does not need illumination in the dust cup 11 by the light emitting diode 15, the user performs illumination by the light emitting diode 15 according to the processing result of the illumination control processing (see the flowchart in FIG. 4). Can be enabled or disabled. For example, the illumination of the light emitting diode 15 can be disabled in order to save power in a bright place or when it is not desired to see dust in the dust cup 11.

The external view of the vacuum cleaner X which concerns on embodiment of this invention. Sectional drawing which shows the internal structure of the vacuum cleaner main body 1 of the vacuum cleaner X which concerns on embodiment of this invention. The block diagram which shows the system configuration | structure of the vacuum cleaner X which concerns on embodiment of this invention. The flowchart for demonstrating an example of the procedure of the illumination control process performed in the vacuum cleaner X which concerns on embodiment of this invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 ... Vacuum cleaner main body 2 ... Suction port part 3 ... Connection pipe 4 ... Grasping part 10 ... Control part 11 ... Dust cup (an example of a dust accommodating part)
DESCRIPTION OF SYMBOLS 12 ... Electric blower 13 ... Infrared light emission part 14 ... Infrared light receiving part 15 ... Light emitting diode (an example of an illumination means)

Claims (3)

An electric vacuum cleaner comprising: a dust container that can see through the dust that is sucked from the suction port by the operation of the electric blower; and a light emitting diode that illuminates the dust container,
A light-receiving unit that receives light emitted from the light-emitting diode and passes through the dust-accommodating unit, and whether or not the light emitted from the light-emitting diode is received by the light-receiving unit. vacuum cleaner, wherein the dust amount detecting means for detecting the amount, and lighting control means for controlling the mode of illumination by the dust amount detecting means and the light-emitting diodes based on the detection result by, to become equipped with. The vacuum cleaner according to claim 1, wherein the detection result by the dust amount detection means includes whether or not the amount of dust detected by the dust amount detection means is equal to or greater than a predetermined saturation amount. The electric vacuum cleaner according to claim 1 or 2, wherein the illumination control means includes illumination availability switching means for switching availability of illumination by the light emitting diode .

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